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view libtomcrypt/src/pk/dsa/dsa_sign_hash.c @ 1790:42745af83b7d

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Introduce extra delay before closing unauthenticated sessions To make it harder for attackers, introduce a delay to keep an unauthenticated session open a bit longer, thus blocking a connection slot until after the delay. Without this, while there is a limit on the amount of attempts an attacker can make at the same time (MAX_UNAUTH_PER_IP), the time taken by dropbear to handle one attempt is still short and thus for each of the allowed parallel attempts many attempts can be chained one after the other. The attempt rate is then: "MAX_UNAUTH_PER_IP / <process time of one attempt>". With the delay, this rate becomes: "MAX_UNAUTH_PER_IP / UNAUTH_CLOSE_DELAY".
author Thomas De Schampheleire <thomas.de_schampheleire@nokia.com>
date Wed, 15 Feb 2017 13:53:04 +0100
parents 6dba84798cd5
children
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/* LibTomCrypt, modular cryptographic library -- Tom St Denis
 *
 * LibTomCrypt is a library that provides various cryptographic
 * algorithms in a highly modular and flexible manner.
 *
 * The library is free for all purposes without any express
 * guarantee it works.
 */
#include "tomcrypt.h"

/**
   @file dsa_sign_hash.c
   DSA implementation, sign a hash, Tom St Denis
*/

#ifdef LTC_MDSA

/**
  Sign a hash with DSA
  @param in       The hash to sign
  @param inlen    The length of the hash to sign
  @param r        The "r" integer of the signature (caller must initialize with mp_init() first)
  @param s        The "s" integer of the signature (caller must initialize with mp_init() first)
  @param prng     An active PRNG state
  @param wprng    The index of the PRNG desired
  @param key      A private DSA key
  @return CRYPT_OK if successful
*/
int dsa_sign_hash_raw(const unsigned char *in,  unsigned long inlen,
                                   void   *r,   void *s,
                               prng_state *prng, int wprng, dsa_key *key)
{
   void         *k, *kinv, *tmp;
   unsigned char *buf;
   int            err, qbits;

   LTC_ARGCHK(in  != NULL);
   LTC_ARGCHK(r   != NULL);
   LTC_ARGCHK(s   != NULL);
   LTC_ARGCHK(key != NULL);

   if ((err = prng_is_valid(wprng)) != CRYPT_OK) {
      return err;
   }
   if (key->type != PK_PRIVATE) {
      return CRYPT_PK_NOT_PRIVATE;
   }

   /* check group order size  */
   if (key->qord >= LTC_MDSA_MAX_GROUP) {
      return CRYPT_INVALID_ARG;
   }

   buf = XMALLOC(LTC_MDSA_MAX_GROUP);
   if (buf == NULL) {
      return CRYPT_MEM;
   }

   /* Init our temps */
   if ((err = mp_init_multi(&k, &kinv, &tmp, NULL)) != CRYPT_OK)                       { goto ERRBUF; }

   qbits = mp_count_bits(key->q);
retry:

   do {
      /* gen random k */
      if ((err = rand_bn_bits(k, qbits, prng, wprng)) != CRYPT_OK)                     { goto error; }

      /* k should be from range: 1 <= k <= q-1 (see FIPS 186-4 B.2.2) */
      if (mp_cmp_d(k, 0) != LTC_MP_GT || mp_cmp(k, key->q) != LTC_MP_LT)               { goto retry; }

      /* test gcd */
      if ((err = mp_gcd(k, key->q, tmp)) != CRYPT_OK)                                  { goto error; }
   } while (mp_cmp_d(tmp, 1) != LTC_MP_EQ);

   /* now find 1/k mod q */
   if ((err = mp_invmod(k, key->q, kinv)) != CRYPT_OK)                                 { goto error; }

   /* now find r = g^k mod p mod q */
   if ((err = mp_exptmod(key->g, k, key->p, r)) != CRYPT_OK)                           { goto error; }
   if ((err = mp_mod(r, key->q, r)) != CRYPT_OK)                                       { goto error; }

   if (mp_iszero(r) == LTC_MP_YES)                                                     { goto retry; }

   /* FIPS 186-4 4.6: use leftmost min(bitlen(q), bitlen(hash)) bits of 'hash'*/
   inlen = MIN(inlen, (unsigned long)(key->qord));

   /* now find s = (in + xr)/k mod q */
   if ((err = mp_read_unsigned_bin(tmp, (unsigned char *)in, inlen)) != CRYPT_OK)      { goto error; }
   if ((err = mp_mul(key->x, r, s)) != CRYPT_OK)                                       { goto error; }
   if ((err = mp_add(s, tmp, s)) != CRYPT_OK)                                          { goto error; }
   if ((err = mp_mulmod(s, kinv, key->q, s)) != CRYPT_OK)                              { goto error; }

   if (mp_iszero(s) == LTC_MP_YES)                                                     { goto retry; }

   err = CRYPT_OK;
error:
   mp_clear_multi(k, kinv, tmp, NULL);
ERRBUF:
#ifdef LTC_CLEAN_STACK
   zeromem(buf, LTC_MDSA_MAX_GROUP);
#endif
   XFREE(buf);
   return err;
}

/**
  Sign a hash with DSA
  @param in       The hash to sign
  @param inlen    The length of the hash to sign
  @param out      [out] Where to store the signature
  @param outlen   [in/out] The max size and resulting size of the signature
  @param prng     An active PRNG state
  @param wprng    The index of the PRNG desired
  @param key      A private DSA key
  @return CRYPT_OK if successful
*/
int dsa_sign_hash(const unsigned char *in,  unsigned long inlen,
                        unsigned char *out, unsigned long *outlen,
                        prng_state *prng, int wprng, dsa_key *key)
{
   void         *r, *s;
   int           err;

   LTC_ARGCHK(in      != NULL);
   LTC_ARGCHK(out     != NULL);
   LTC_ARGCHK(outlen  != NULL);
   LTC_ARGCHK(key     != NULL);

   if (mp_init_multi(&r, &s, NULL) != CRYPT_OK) {
      return CRYPT_MEM;
   }

   if ((err = dsa_sign_hash_raw(in, inlen, r, s, prng, wprng, key)) != CRYPT_OK) {
      goto error;
   }

   err = der_encode_sequence_multi(out, outlen,
                             LTC_ASN1_INTEGER, 1UL, r,
                             LTC_ASN1_INTEGER, 1UL, s,
                             LTC_ASN1_EOL,     0UL, NULL);

error:
   mp_clear_multi(r, s, NULL);
   return err;
}

#endif

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/* git commit:  $Format:%H$ */
/* commit time: $Format:%ai$ */